RU38795U1 - SPIRAL STAIRCASE - Google Patents

Abstract

The utility model relates to construction. A spiral staircase with right or left approaches of steps contains a central bearing element consisting of support tubular elements coaxially aligned in the vertical direction, bearing steps attached to them with a horizontally positioned support platform, each of which is sequentially located with an angular displacement in the circumferential direction with respect to the others steps, as well as racks fixed to steps for railing parts. Each supporting tubular element is made in the form of a cylinder with a conical external surface from the side of one end and an internal hole with a conical surface from the side of the other end to accommodate a part of the cylinder with the conical external surface of another stage. Each rack is attached at one end to the side surface of the step support platform from the side opposite to the cylinder placement and is made at the other end with a cylindrical connecting cylinder-shaped element with holes made on opposite sides of this element in the direction to the axis of the rack and at an angle to each other for formation of a common through hole. The railing is made of separate sections with a circular cross section, the ends of each of which are placed in the openings facing each other of the connecting cylinder-shaped elements of adjacent racks.

Description

The utility model relates to construction, in particular, relates to the design of a spiral staircase designed for communication between floors of buildings or various levels of buildings.

Known spiral staircase, comprising a bearing element made in the form of a supporting axis, to which the step strips are rigidly attached (DE, 2619941, E 04 G 11/02, publ. 1977).

The disadvantage of this ladder is the inability to dismantle and the significant complexity of the construction.

A spiral staircase is known, including supporting elements on which the step strips are rigidly fixed, and the supporting element mounted in the center is made in the form of a steel pipe (Fr, 1352931, E 04 G 11/02, publ. 1978).

The disadvantage of this technical solution is the presence of peripheral load-bearing elements located at the same distance from the central one, which does not provide optimal load when moving up the stairs.

The closest technical solution, chosen as a prototype, is a spiral staircase, including supporting elements, on which rigidly fixed strips, bearing removable steps, while the bearing elements of the supports are located in a plane perpendicular to the axis, in a spiral of Archimedes, with a uniformly increasing radius and height determined by the pitch of a ruled helical surface - direct

helicoid in its maximum cross section (RU, 2181823, E 04 F 11/032, publ. 04/27/2002).

The disadvantage of this technical solution is the need to install additional supporting steps of the rod supports,

This utility model is aimed at solving the technical problem of creating a modular design of a spiral staircase, including a railing, and providing the possibility of installing steps both clockwise and counterclockwise.

The technical result achieved in this case consists in increasing the manufacturability of the stairs, making it possible to set them up according to the position of the steps relative to each other, and to simplify assembly by using composite railings.

The specified technical result consists in the fact that in a spiral staircase containing a central supporting element, consisting of supporting tubular supporting elements coaxially aligned in the vertical direction, bearing steps attached to them with a horizontally positioned supporting platform, each of which is sequentially located with an angular displacement in the circumferential direction in relation to adjoining other steps, as well as racks fixed on the steps, intended for mounting on them a hand-made railing, for of the steps with right or left accesses, each supporting tubular element is made in the form of a cylinder with a conical external surface on the side of one end and an internal hole with a conical surface on the other end to accommodate a part of the cylinder with the conical external surface of the other stage, with each rack one end attached to

the lateral surface of the supporting platform of the step from the side opposite to the placement of the cylinder, and made at the other end with a spherical connecting element with holes made on the opposite sides of this element in the direction to the axis of the rack and at an angle to each other to form a common through hole, and the railing made of separate sections with a circular cross section, the ends of each of which are placed in the openings of the connecting cylindrical elements adjacent to each other to.

These features are significant and interconnected with the formation of a stable set of essential features sufficient to obtain the desired technical result.

The present utility model is illustrated by a concrete example, which, however, is not the only possible one, but clearly demonstrates the possibility of achieving the required technical result by the given set of features.

Figure 1 - General view of a spiral staircase;

figure 2 - supporting elements with steps;

figure 3 - connecting element, the location of the holes when viewed from the side;

figure 4 is the same as in figure 3, a top view.

According to a real utility model, a spiral staircase is a modular design that allows to mount a staircase from standard nodes both with right and left steps.

The spiral staircase (Fig. 1) contains a central support column 1, consisting of supporting tubular elements 2 coaxially aligned in the vertical direction, bearing steps 3 rigidly attached to them with a horizontally placed supporting platform 4. Each supporting tubular element is made in the form of a cylinder with a conical outer surface 5 from the side of one end and the inner hole 6 with a conical surface from the side of the other end to accommodate part of the cylinder with the conical outer surface of the other stage (figure 2). Thus, the installation of the ladder is carried out by sequential docking along the height of the mating parts with the conical surface of the cylinders. With this installation we get a composite central rack. But it is possible to regulate the position of one stage relative to the upper positioned stage or lower positioned stage due to the rotation of one cylinder relative to the adjacent cylinder. After mounting the stoics, the cylinders self-fix due to friction on the conical surface and loading by the weight of the upper stages. As a result, we get the design of the stairs, in which each of the steps is sequentially located with an angular displacement in the circumferential direction with respect to adjacent other steps.

On the steps of the stairs are fixed racks 7, designed for mounting on them a spiral-shaped railing that repeats the contour of the spiral bend of the stairs. Each stoic is a rod element, one end attached to the side surface of the supporting platform of the stage from the side opposite to the placement

cylinder. For this, a corresponding hole 8 is made in the side of the stage.

At the other end, each strut is made with a ball-shaped connecting element 9, which can be made in the form of an independent assembly attached to the strut (for example, by means of a threaded connection 10), or at the same time with the strut.

The connecting element 9 (Fig.3, 4) of each rack is made with holes 11 and 12 made on opposite sides of this element in the direction to the axis of the rack and at an angle to each other to form a common through hole. Preferably, to maintain smooth coincidence with the helical inclination of the railing, the axis of the first hole 11 is at an angle α ₁ = 28 ° to the horizontal and α ₂ = 62 ° to the vertical, coinciding with the axis of the other hole 12 in the same plane. And when viewed from above, it is preferable that the angle between the radially directed axes of the common through hole of each connecting element is equal to α ₃ = 156 °. The angular arrangement of the axes of the common through hole allows you to form a screw-shaped railing, which is made of individual sections 13 with a circular cross section. When installing the railing, the ends of each of the sections 13 are placed in the facing openings of the connecting elements of adjacent racks. With the modular sectional design of the railing, the manufacture of the staircase as a whole is simplified, especially in terms of the formation of its spiral-shaped contour.

Between adjacent racks 7 on the supporting platform 4 of each stage, a blind hole can be made for installing one end of an additional rack, the other end of which is inserted into

the hole section of the railing, mounted in the connecting cylindrical elements of these racks.

A staircase can be made using a wide variety of materials: steel, aluminum and an alloy based on it, wood, polymeric materials and their combinations.

This utility model is industrially applicable, as it can be implemented using conventional technologies used today in the manufacture of prefabricated spiral staircases.

Claims (3)

1. A spiral staircase comprising a central supporting element, consisting of supporting tubular supporting elements aligned coaxially in the vertical direction, bearing steps attached to them with a horizontally positioned supporting platform, each of which is sequentially angularly displaced in the circumferential direction with respect to adjacent adjacent other steps , as well as racks fixed on the steps, designed for mounting on them a handrail of a screw-shaped shape, characterized in that for mounting steps with a right or left m approaches, each supporting tubular element is made in the form of a cylinder with a conical external surface from the side of one end and an internal hole with a conical surface from the side of the other end to accommodate a part of the cylinder with a conical external surface of the other stage, with each stand at one end attached to the side the surface of the supporting platform steps from the side opposite to the placement of the cylinder, and is made at the other end with a connecting element of a spherical shape with holes made with the positive sides of this element in the direction to the axis of the rack and at an angle to each other to form a common through hole, and the railing is made of separate sections with a circular cross-section, the ends of each of which are placed in the openings facing each other of the connecting cylinder-shaped elements of adjacent racks. 2. The ladder according to claim 1, characterized in that preferably the angle between the radially directed axes of the common through hole of each connecting element is equal to 156 °. 3. The ladder according to claim 1, characterized in that between adjacent racks on the supporting platform of each stage there is a blind hole for installing one end of an additional rack, the other end of which is inserted into the opening of the rail section secured in the connecting elements of these racks.